Les Entraîneur hydraulique supérieur avec système à double pompe is the ultimate platform for mastering hydraulic circuit experiments, hydraulic applications, and comprehensive curriculum design. Tailored for colleges and vocational schools, this advanced trainer provides cutting-edge training and assessment in hydraulic drive systems and PLC control technology, featuring a variety of industrial-grade hydraulic components and a programmable controller module.
Key Training Capabilities of the Superior Hydraulic Trainer with Dual Pump System
- Comprehensive Hydraulic Transmission System Training
Experience the full spectrum of hydraulic systems with robust, real-world applications.
- Advanced Basic Hydraulic Circuit Experiments
Engage in dynamic hands-on learning with industrial-grade equipment.
- Performance Testing of Common Hydraulic Components (Optional)
Elevate understanding through detailed performance analysis.
- PLC Electrical Control Experiments: Machine-Electric-Hydraulic Integration
Integrate and master the synergy between machine control, electricity, and hydraulic power.
- Innovative T-Slot Training Panel Design
Quick and easy operation with rapid joint integration for all hydraulic components.
- Industrial-Grade Hydraulic Components and Valves
Withstand pressures up to 7MPa, featuring automatic pressure relief for ultimate safety.
- Modular Hydraulic System
Independent hydraulic modules with spring pin plates for effortless circuit assembly on the T-slot panel.
- Quick Coupling and Protected Electrical Connections
Students can confidently design and build up to 90 complex hydraulic circuits, with options to follow guided experiments or create custom configurations.
- Dual Control Modes: Relay Unit and PLC
Compare and contrast relay and PLC control for a deeper understanding of PLC advantages.
- Powerful Dual-Pump System
Combines a quantitative vane pump and a variable vane pump for versatile performance.
Hydraulic Circuit Training Modules
2.2 High-Speed Movement Circuits
- Differential fast-speed movement with one-way valve
- Fast-speed movement using two-position, three-way solenoid valve
2.3 Speed Shift Circuits
- Fast-slow speed transition circuits
- Bidirectional speed shift control
3.Circuits de contrôle directionnel
3.1 Reversing Circuits
- Continuous reciprocating motion using two-position, four-way solenoid valve
- Reciprocating motion with three-position, four-way solenoid valve
3.2 Lock Circuits
- Locking via one-way valve
- Locking via pilot check valve
4.Circuits d'action de la commande multicylindre
4.1 Sequential Action Circuits
- Sequence control with single and dual sequence valves
- Sequence control with travel switches, pressure relays
- Joint control with sequence valves and travel switches
4.2 Synchronization Action Control Circuits
- Oil-out throttle synchronization using speed regulating valves
- Bidirectional oil-inlet synchronization circuits
1.Circuits de contrôle de la pression
1.1 Pressure Regulation Circuits
- Single-stage pressure regulation
- Two-stage pressure regulation
- Three-stage pressure regulation
- Remote port single-stage pressure regulation
- Remote port two-stage pressure regulation
- Dual-pressure control circuit
1.2 Pressure Reduction Circuits
- Réduction de pression à un étage
- Two-stage pressure reduction
1.3 Pressure Holding Circuits
- Pressure holding via reversing valve
- Pressure holding via one-way valve
- Pressure holding via pilot check valve
1.4 Pressure Relief Circuits (Pressure-Venting)
- Two-position, two-way valve reversal circuit
- Three-position, four-way valve relief circuit (M-type and H-type mid-position functions)
- Solenoid valve-controlled double pump pressure relief
- Pressure-controlled double pump relief circuit
1.5 Balancing Circuits
- Balancing with sequence valve
- Balancing with pilot sequence valve
- Combined balancing and pressure holding circuit
- Balancing with pilot check and one-way throttle valve
1.6 Buffer Circuits
- Buffering via speed regulating valve
- Buffering via pressure relief valve
2.Circuits de contrôle de la vitesse
2.1 Throttle Speed Regulation Circuits
- Oil-inlet throttle with speed regulation
- Oil-return throttle with speed regulation
- By-pass throttle speed regulation
- Bidirectional oil-inlet throttle speed regulation with one-way throttle valve
- Oil-return speed regulation with back pressure valve
PLC Electrical Control Experiments
- PLC programming and ladder logic instruction
- Software-based PLC programming and debugging
- PLC-to-computer communication
- PLC integration in hydraulic transmission systems
Hydraulic Component Performance Testing (Optional)
- Static performance of pressure relief/overflow valves
- Throttle valve characteristic testing
- Speed regulating valve performance evaluation
- Hydraulic pump performance testing
Throttle Speed Regulation Performance Testing (Optional)
- Speed-load characteristics of oil-inlet throttle circuits
- Speed-load analysis of by-pass throttle circuits
3D Dynamic Simulation and Control Experiments (Optional)
- Dynamic simulation and control software setup
- PLC programming and simulation debugging
- Real-time control and monitoring of basic hydraulic circuits
1.Motor A
- Puissance nominale :2 kW
- Alimentation électrique :AC 380V
- Vitesse nominale :1440 rpm
2.Motor B
- Puissance nominale :5 kW
- Alimentation électrique :AC 380V
- Vitesse nominale :1430 rpm
3.Pompe à palettes variables
- Déplacement :7 cc/rev
- Maximum Pressure:7 MPa
- Pressure Range:3-7 MPa
4.Quantitative Gear Pump
- Déplacement :8 cc/rev
- Pression nominale :7 MPa
Overall Dimensions
- Length × Width × Height:1570 × 660 × 1820 mm